Film and slide projecting apparatus



April 20, 1943. Y. STERN 2,317,310

FILM AND SLIDE PROJECTING APPARATUS Filed April 30, 1941 2 Sheets-Sheet l INVENTOR Yrm ze Star/z ATTORNEY Apr-i120, 1943. Y. STERN FILM AND SLIDE PROJECTING APPARATUS Filed April 30,1941 2 Sheets-Sheet 2 Patented Apr. 20, 1943 UNITED STATES PATENT orrlca 2,317,310 FILM AND SLIDE PROJECTIN G APPARATUS Yermie Stern, New York, N. Y., assignor, by mesne assignments, to Gertrude Israel, New

York, N. Y.

Application April 30, 1941, Serial No. 391,074 7 Claims. (Cl. 88-16.Z)

This invention relates to an apparatus for Y successively projecting a motion picture film and a predetermined number of still pictures or slides onto the same screen. More particularly the invention comprises an electric circuit for se lectively operating either a means for projecting a motion picture film or a slide projecting apparatus or for successively operating in predetermined sequence the motion picture film projecting means and the slide projector.

In accordance with the invention I provide a housing which houses a motion picture projector and associated mechanism and a slide projector which is adapted to project a plurality of slides or any kind of still pictures. The motion picture film as well as the slides are projected onto the same screen forming a portion of the wall of the housing. Preferably, the motion picture film has a sound track and a sound reproducing mechanism so that sound films may be reproduced. Also the slide projector may be associated with asuitable sound reproducing meanssuch as sound tape to accompany the showing of the slides with a corresponding explanation. Instead of the sound tape a film having a sound track may be used or any other reproducing means, for instance phonograph records.

The film projector as well as the slide projector and their associated soundreproducing means are controlled by an electric circuit. The electric circuit is so arranged that either films or slides only may be reproduced. Moreover, the

both, motion picture film and slides in predetermined succession.

Still another object of the invention is to provide a film break switch that will automatically disconnect the film projector and the film sound reproducing means when the film breaks.

These and further objects of the invention will become more apparent in the following description of a preferred embodiment of the invention illustrated in the drawings, wherein:

ing a part of the front wall thereof. Housing Ill electric circuit also permits to successively show a film, thereafter a predetermined number of slides, and then another film and so forth.

Means are provided to disconnect the film projector and its associated mechanisms when the film breaks. The electric circuit may also include a counter for counting the number of films that have been played.

It is accordingly an object of the invention to provide in combination a film projector and a slide projector which will operate either singly or successively one after the other.

Another object of the invention is to automatically reproduce a film together with the accompanying sound and a number of slides also with accompanying sound. and means for automatically changing from film reproduction to slide reproduction and vice versa.

Still an object of the invention is to provide an electric circuit that permits to selectively operate the apparatus of the invention to either show a motion picture film only or slides only or comprises a motion picture film reproducing apparatus generally indicated at l2. Apparatus l 2 includes a film projector I 3 that projects light through lens H onto mirror l5 arranged opposite lens H. The light from film projector I3 is reflected by mirror l5 onto mirror I6 provided in the upper portion of housing ill. Mirror Y i6 projects the light onto screen I I where an enlarged picture of film I1 is produced. Film I1 is preferably wound on a film reel arranged in box IS, the film reel using an endless band of film. A film reel of the type which may be used in the apparatus of the invention is disclosed in co-pending application of Alfred Gruenhut, Automatic rewind film carrier, Ser. No. 381,975, filed on March 6, i941, and assigned to the same assignee.

The film leaves box i8 through aperture 20 and moves through film gate 2| wherefrom it passes through rollers 22 feeding the film onto film sprocket 23. Film sprocket 23 is driven in any suitable manner and feeds the film onto the film reel through aperture 24 in box l8.

It will be understood that the film is fed through film gate 2| with an intermittent movement as is well known to those skilled in the art. Box l8 also includes an exciter lamp, a photoelectric cell and an amplifier. The photoelectric cell receives its light through the sound track on the film. The electric impulses produced by the photoelectric cell are amplified by the amplifier and fed to a loud-speaker schematically indicated at 25.

Slide projector 26 is secured on bracket 21 projecting from housing Hi. Slide projector 28 projects the light through lens 28 onto mirror 3|] fastened on bracket 21. Mirror 38 projects the light onto mirror It wherefrom it impinges on screen I l. A practical embodiment of housing I'll will be much longer than. the one shown in Fig. 1. Therefore the angle between the light rays reflected by mirrors I and 30, respectively, will be much smaller than the one shown in Fig. 1, and. accordingly, both pictures reflected by mirrors i5 and 30 will be projected onto approximately the same place on screen N. Slide projector 26 includes an apparatus for automatically and successively projecting a predetermined number of slides or still pictures. Slide projectors of this type are readily available on the market. The slides, for instance, may be arranged in a rotatable cylinder which advances the slides one at a time to a position adjacent the light source. Now, the slide is laterally moved into the projector'to be projected and thereafter the slide returns into the cylinder which rotates the next slide to a position adjacent the light source. Since neither film projector I3 nor slide projector 26 form part of this invention, they have not been described in detail here.

The electric circuit for selectively energizing either the film projector and its associated mechanism or the slide projector is shown in Fig. 2. The wiring diagram comprises a current source 40 which is connected by way of main switch 4| with four fuses 42, 43, 44 and 45. Fuse 42 protects the two projectors, the film projector and the slide projector. Fuse 43 is in circuit with current outlet 46 which is directly connected with one pole of current source 48 by way of wire 41. Fuse 44 is in circuit with the amplifier for the sound translating mechanism, and fuse 45 protects the transformer. When main switch 4| is closed it connects outlet 46 by way of wire, fuse 43, wire 41 With wire 50 connected with the other pole of current source 40. A fan for cooling the film pro jector may be plugged into current outlet 46.

In order to supply current to the various relays and the electric apparatus controlled thereby push button. 5| is provided. Push button 5| has a contact 52 connected with wire 58 which. by way of wire 58, is connected with one pole of current source 55. The other contact 54 of push button '55 is in line with relay 55 connected with transformer fuse 45 by lead 56. Hence it will be seen that when push button 5| is pushed in, it closes the circuit of relay 55 by way of leads 58, 53, contacts 52, 54, leads 56, transformer fuse 45 and lead 48, provided main switch 8| is closed. When relay 55 is energized, it attracts two contacts 5i and 58. When contact 58 is closed it directly connects relay 55 with lead 53. Accordingly, once push button 5| is actuated, relay 55 will remain energized as long as main switch 4| is closed.

Contact 51 connects lead- 53 with wire 60 branching off into wire 6|. Wire 5| feeds the current to socket 62. Socket 62 is connected with the amplifier for amplifying the impulses of the photoelectric cell controlled by the sound on the sound track. The other pole of socket 52 is connected with wire 53 which connects it with amplifier fuse 84 which in turn closes the electric circuit through conductor 48. Hence, it will be seen that the electric circuit of amplifier socket 52 is always closed as soon as push button 5| is actuated. The amplifier for the sound translating mechanism should always be alive because it needs some time to heat up before it will opcrate satisfactorily.

Wire is also connected with conductor 64 feeding the primary 66 of transformer 55. The other pole of the transformer primary 56 is connected with leads 61 and 88 between which film break switch 10 is arranged. Wire 68 is connected with transformer fuse 45 connected by way of lead 48 with one pole of current source 40. Hence, it will be seen that as long -as main switch 4| is closed and push botton 5| actuated, transformer primary 55 will be connected with the current source. Film break switch 10 is actuated by relay H and is normally closed. Film break switch 1|] is opened when relay ii is energized which occurs upon breakage of the film. Relay H is connected with the two poles of secondary 12 of transformer by leads I3 and 14. Film break switch is arranged in lead 14 of relay 1|. In a preferred embodiment film break switch l5 consists of a roller that rolls over the film. When the film breaks, the roller is no longer supported by the film and falls down thus closing the electric circuit that includes relay 7| and transformer secondary i2. Now, relay ll will be energized and opens switch l0.

The film break relay H and its operating mechanism is shown in greater detail in Fig. 5. Plate 69 is normally urged by spring 15 away from relay Plate 69 has a projection 11 which engages with nose 18 on lever 80. Spring 8| secured to lever 8|] tends to rotate lever in a counterclockwise direction. Lever 8|] has a roller 82 pressing against flexible metal strip 83. Strip 83 is connected with a similar flexible strip 84 by means of an insulating spacer 85. Flexible strip 84 bears a contact 86 adapted to cooperate with contact 8'5 on flexible metal tape 88. Contacts and 8'! together form switch 10, schematically shown in Fig. 2. Metal strips 84 and 88 are connected with leads 58 and 61, respectively.

The operation of the film break relay. will now be described. When relay H is energized, it attracts plate 59 against the action of its spring l5. Hence projection ll on plate 88 disengages nose l8 oflever 88 which is now free to rotate in a counterclockwise direction under the influence of its spring 8|. The rotary movement of lever 80 disengages its roller 82 from flexible strip 83. Hence, strip 8% is free to return -to its normal position and contacts 85 and 81 disengage. In order to return the parts into their position of Fig. 5 lever 88 must be rotated by hand in a clockwise direction until its nose 18 engages withprojection ll of plate 69. Thus it will be seen that when relay ii is energized it opens switch 15. Switch 70 can only be closed again by rotating lever 85 by hand. This is done after the broken film has been repaired.

The electric circuit of Fig. 2 includes a constant duty relay 98 and two interlocking relays 9| and 82 which actuate a switch 83 that controls the current supply of constant duty relay 90. Lead 94 connects relay 98 with one pole of transformer primary 66. Lead 95 connects constant duty re lay 98 with switch 93 operated by interlocking relay 9| and 92. Conductor 96 connects switch 93 with conductor 64 thus closing the electric tends to keep plate I away from relay 801g sulating member I03 is secured to plate I00 d actuates flexible metal strip I04 spaced from metal strip I05 by insulating spacer I06. Two further metal strips I01 and I08 are spaced from each other by spacers H0 and III. The ends of metal strips I04, I05, I01 and I08 are secured together in spaced relationship by screw I I2. The metal strips are spaced by insulating members generally indicated at II3. Flexible metal strip II4 bears a contact II5 cooperating with contact II6 on metal strip I08. Flexible metal strip II1 bears contact I20 which is normally spaced from contact I2I on strip II1. Contact I22 on flexible strip I05 is normally spaced from contact I23 on flexible metal strip I24. Flexible strip I04 has two contacts I25 and I21. Contact I25 normally makes contact with contact member I26 on flexible metal strip I30. On the other hand contact I21 on strip I04 is normally spaced from contact I28 on flexible member I28.

Hence, it will be seen that when relay 80 is not energized, contacts H5, H6 and contacts I26, I25 are normally closed. The other contacts I20, I2I, I22, I23 and I21, I28'are normally open. When relay 80 is energized, it attracts plate I00 which in turn pulls down flexible strips I04, I05, I01 and I08. Thus it will be readily seen that all the contacts that are normally open will now be closed, while the contacts that are normally closed are opened. It is to be understood that constant duty relay 80 has a second series of contacts which are exactly symmetrical to the con tacts shown in Fig. 3 as indicated schematically in Fig. 2.

Interlocking relays 8|, 82 and switch 83 operated thereby are shown in Fig. 4. Plate I40 pivoted at I4I is arranged to be attracted by make relay 8|. One end of plate I40 has a spring I42 which tends to rotate plate :40 in a counterclockwise direction and away from make relay 8|.

Plate I43 rotates about pivot I44 and is arranged to be attracted by break relay 82. Spring I45 tends to rotate plate I43 in a clockwise direction and away from its relay 82. The ends of plates I40 and I43 are arranged to lock each other as will be more fully explained hereinafter.

Insulating member I46 is secured to plate I40. Flexible metal strip I41 bears a contact I50 adapted to cooperate with contact I5I on flexible metal strip I52. Metal strips I41 and I52 are secured in spaced relationship by screws I53 and insulated from each other by insulating member I54. Metal strip I41 projects through a slot I55 in insulating member I46,

In the position of Fig. 4 break relay 82 has just been energized andhas attracted its plate I43.

' Plate I40 now locks plate I43 and prevents it from rotating in a clockwise direction. On the other hand plate I40 is freeto be rotated in counterclockwise direction by its spring I42 so that insulating member I46 bends metal strip I41 in a direction to space contacts I50 and I5I. Hence it will be seen that switch 83 formed by contacts I50 and I5I is opened.

When make relay 8I is energized, plate I40 is attracted and will rotate in a clockwise direction. Simultaneously its end portion disengages plate I43 which is now free to rotate in a clockwise direction under the influence of spring I 45. New plate I43 will lock plate I 40 and prevent it from rotating in a counterclockwise direction. Metal strip I41 is no longer bent, and hence contacts I50 and I5I close switch 93. It will be seen that interlocking relays 8| and 82, respectively, need only be energized for a short time and when one of the relays has been energized once, plates I40 and I43 will interlock each other so that switch 83 remains in its position.

As explained previously in connection with Fig. 2 constant duty relay 80 is controlled by switch 83. Normally, relay 80 is in its inoperative or slide position. However, when switch 83 is closed, constant duty relay 80 is energized and attracts plate I00. This is the "film" position.

Referring again to the electric circuit of Fig. 2 constant duty relay 90 is shown here in its inoperative or slide position. Relay 80 actuates a number of switches schematically indicated at 15 I60, I6I, I63, I64, I61 and I68. For the sake of clarity switches I60, I6I, I63, I64, I61 and I68 have been given reference numerals which difler from the reference numerals for the contacts of Fig. 3. Switch I60 is normally open and is connected with leads HI and I12. Lead I1I connects switch I60 with current outlet or socket I13. Film projector I3 is adapted to be connected with socket I13. Conductor I12 connects switch I60 with conductor I14 which in turn is connected with projector fuse 42. The other pole of film projector socket I13 is connected with conductor 6| which connects it with the other pole of current source 40. Hence, it will be seen that when switch I60 is closed, it energizes the film projector because the current will flow from current source 40 over conductor 48, main switch 4|, projector fuse 42, conductors I14, I12 to switch I60 and hence to film projector socket I13.

Switch IN is normally closed and opens when switch I60 closes. Conductor I12 is common to switches I60 and I6I. The other contact of switch'i6l is connected by conductor I15 with current outlet I 16 to which the slide projector is connected. The other pole of slide socket I16 is connected with conductor SI, and hence it will be seen that the slide projector is energized when switch I6I is closed.

Switch I68 is connected with two conductors I18 and I80 which connect the switch with current outlet or socket I8I. Current outlet I8I in turn is connected with two conductors I82 and I83 which are in line with exciter lamp I64 and a suitable current source I85. Hence it will be seen that when switch I68 is closed, current source I85 energizes exciter lamp I84, which occurs when constant duty relay is energized.

Switch I61 is connected with two wires I86 and I81 which connect it with current outlet I88. Current outlet I88 in turn is connected with two wires I80 and I8I which are in line with the secondary of transformer I82 which is fed by current source I83. Transformer I92 operates loud-speaker 25. Hence, when switch; I61 is closed, the circuit of loud-speaker 25 is energized. Loud-speaker 25 reproduces the sound on the sound track of the film. Exciter lamp I84 projects its light through the sound track on the film onto a photoelectric cell. The impulses of the photoelectric cell amplified by an amplifier connected with socket 62 are fed to loud-speaker 25. Dotted line I85 indicates that relays 80, 8|, 82 as well as sockets I16, 62, I13, I88 and I8I are housed in a box while exciter lamp I84 and loudspeaker 25 with its transformer I92 are located elsewhere.

It will now be seen that in the position of Fig. 2 slide projector socket I16 only is energized. On the other hand, when relay 80 is energized, it moves contacts I60 to I10 into their film position. Now, film projector socket I13 is energized as well as exciter lamp i8 3 and loud-speaker 25. The energizing of constant duty relay W is controlled by switch 93 which in turn is actuated by make relay 9i and break relay 92. Relays 9i and 92 are controlled by switches l53 and Hi l which are in electric circuit with double-pole three-way switch 2E0. i p

Double-pole three-way switch 200 has three difierent positions indicated F, C and S in Fig. 2. One pole of secondary 12 of transformer 65 is connected with lead 2M which is connected with contacts 203 and B of switch Zilll through conductor 202. When switch 200 is in the F-position it connects contacts 203, 299 and contacts 208, am. In the C-position contacts 206, 209 and contacts 201, 218 are connected, and in the S- position contacts 265, 209 and contacts 296, 219 are connected. The other pole of transformer secondary 121s connected through lead 2H with switch contact 261.- Counter ZiZ'isarranged in lead 2H and serves to count the number of films which have been played. Contact am of switch 2% is connected by lead 2l3 with switch 583.

The other pole of switch I53 has a conductor are connecting it with break relay 92. Conductor 265 connects the other pole of break relay 92 with one of the poles of transformer secondary 32. Contact 2% of switch Zilil is connected with switch 56% by conductor file. The other pole of switch lot is connected with make relay 95 by wire Zli'. Wire 2"; connects the other pole of make relay 99 with condfictdfi er fiontacts set and 2st corresponding to the C-position of switch 2% are connected by conductors 22d and 22! having interposed therebetween film switch 222 and slide switch 223. Besides, film switch 222 is connected with conductor 2M by wire 226.

Film switch 222 is closed for a short moment when one film has been played, Preferably, the edge of the film is provided with a suitable notch which engages with the film switch to efiect closing thereof. After the notch on the film has passed switch 222 is opened again. Similarly, slide switch 223 is closed for a short moment when a predetermined number of slides has been shown. To this end the rotary casing of the slide counter M2 is energized each time film switch,

projector may have a projecting member that closes slide switch 223 arranged to engage the projection. When the projection passes the slide switch, it opens again.

Double-pole three-way switch 2836 serves to adjust at will the electric circuit so that film only, slides only, or film and slides in succession may be played. In order to show films only, switch 2% is put into the position designated with F. Now, contacts 203, 209 and contacts 208, 2m are connected. Contact 208 is not connected with any other part of the circuit.

However, contact 203 is connected with transformer secondary 72 by wires 20! and 2% which are now in 'line with conductor 2% connected with contact 209. Conductor M6 is connected by switch its and conductor 2 I? with make relay 9 i. The circuit of make relay 9| is closed through wire ZIE to the other pole of transformer secondary l2. Accordingly, if relay 96 is in the position of Fig. 2, make relay 99 will 'be energized which causes closing of switch 93 as explained hereinabove. Now, constant duty relay 9c is energized as previously explained. This will bring contacts itii, iiii, ids, ltd, it? and ltd into their film position and hence film projector socket W3, exciter lamp i813 and loud-speaker are now film switch 222, wires 122 is closed in the manner previously explained.

This closes an electric circuit from transformer secondary it through counter 2i2, wires 2i i, 220,

I 22 i, 285 and back to transformer secondary '32. Hence, it will be seen that 222 closes, viz. each time one film has been completely shown.

Supposing now-it is desired to show slides only.

Double-pole three-way switch Zllil is put in the S-position, and hence contacts 2%, 2% and'contacts 265, are are connected. Contact 285 is not connected with any part of the electric circuit and hence wire 2i6 is not'alive now. Contact 206, however, is connected through wires 2B2, 26! with the one pole of transformer secondary 12. Contact 266 is now connected with contact 210 which in turn is connected with switch i53 by wire 2E3.

When relay W and contacts ltd to Hill controlled thereby, are in the position of Fig. 2, nothing happens because switch its is open. However, when constant duty relay at was previously energized, switch use will now be closed. Accordingly, break relay s2 is connected by wire 2M with switch itii and by wire 2th with the other pole of transformer secondary 12. Accordingly, break relay 9?. is energized and opens contact 93 which in turn causes cle-energization of relay 91!.

Hence, contacts ltd to its return to their normal tact 201i is connected with one pole of transformer secondary 82 by wire 2! i through counter 25?. Contact 287 is connected with contact 2") which in turn is connected with switch 663 through wire M3. Switch its is normally open, 1. e. when constant duty relay is not energized.

Contact 2M of switch 206 is connected with one pole of transformer secondary 82 by wire 2M, slide switch 223 and wire 22 i. 2M is connected with contact 2%, transformer secondary i2 is connected with switch i641 through the intermediary of wire ZIS. Switch it is nor-- mally open and hence, connects make relay sl through the intermediary of wire 2i? with contact 289. The other pole of transformer secondary i2 is connected with make relay 9| through wire 2%. It will now'be seen that when slide switch 223 is closed, make relay Si is energized. This causes closing of switch 93 which in turn energizes constant duty relay 98. Hence, when. slide switch 223 closes, it will bring contacts its, itL'its, its, iti and 168 into their film position, and playing of the film begins.

However, now switch it i is open while switch M3 is closed. Switch is? is connected with one pole of transformer secondary l2 when film switch 222 is closed. Now, switch E63 is connected with break relay 92 which is now energized causing opening of switch t3. This in turn deenergizes relay 98. Hence, it will be seen that closing or" film switch 222 and slide switch 223, respectively, causes opening and closing of the circuit or constant dutyrelay do.

Since contact Various changes and modifications may he made to the details of construction of the invention without departing from the broader spirit and switches being normally closed when said con-- stant duty relay is not energized, a switch having three positions, one position for energizing said make relay, a second position for energizing said break relay, and a third position for selectively energizing said make relay and said break relay, a film switch and a slide switch in line with said switch in its third position, said film switch being arranged to be closed when a predetermined portion of the film has been played for energizing said break relay, said slide switch being arranged tobe closed when a predetermined number of the slide pictures has been shown for energizing said make relay, said film switch and said slide switch being eifective in the third position of said three-way switch for controlling said make relay and said break relay.

2. An electric circuit comprising a constant duty relay, a current source and a switch for con-' trolling said constant duty relay, said switch being controlled by a make relay and'a break relay having means for interlocking said two relays, said constant duty relay controlling a plurality of switches, a number of said switches being normally open when said constant duty relay is not energized the remainder of said switches being normally closed when said constant duty relay is notenergized, said normally open switches being in line with a current source and a film projector for projecting a motion picture film, an exciter lamp and a loud-speaker, said normally closed switches controlling a slide projector for projecting slide pictures and connected with a current source, a switch having three positions, one position for energizing said make relay, a second position for energizing said break relay, and a third position for selectively energizing said make relay and said break relay; a film switch and a slide switch in line with said switch in its third position, said fllm switch being arranged to be closed when a predetermined portion of the film has been played for energizing said break relay, said slide switch being arranged to be closed when a predetermined number of the slide pictures has been shown for energizing said make relay, said film switch and said slide switch being efiective in-the third position of said three-way switch for controlling said make relay and said break relay.

3. An electric circuit comprising a constant duty relay, 9. current source and a switch for controlling said constant duty relay, said switch being controlled by a make relay and a break relay having means for interlocking said relays, said constant duty relay controlling a plurality of switches, a number of said switches being normally open when said constant duty relay is not energized, the remainder of said switches being normally closed when said constant duty relay is not energized, said make relay being in line with a normally closed switch, said break relay being in line with a normally open switch, a threeway switch having three positions for selectively controlling the energizing of said make relay and of said break relay, 3. film switch and a slide switch in line with said switch in its third position, said film switch being arranged to be closed when a predetermined portion of the film has been played for energizing said break relay, said slide switch being arranged to be closed when a predetermined number of the slide pictures has been shown for energizing said make relay, said film switch and said slide switch being effective in the third position of said three-way switch for controlling said make relay and said break relay.

4. An electric circuit comprising a constant duty rela *1 current source and a switch for controlling said constant duty relay, said switch being controlled by a make relay and a break relay having means for interlocking said relays, said constant duty relay controlling a plurality of switches, a number of said switches being normally open whensaid constant duty relay is not energized, the remainder of said switches being normally closed when said constant duty relay is not energized, said normally open switches being in line with a current source and a film projector for projecting a motion picture film, an exciter lamp and a loud-speaker, said normally closed switches controlling a slide projector for projecting slide pictures and connected with a current source, a switch having three positions, one position for energizing said make relay, 2, second position for energizing said break relay, and a third-position for selectively and successively energizing said make relay and said break relay, a normally open film switch and a normally open slide switch in line with said switch in its third position, said fllm switch being arranged to be closed when a predetermined portion 01 the film has been played for energizing said break relay, said slide switch being arranged to be closed when a predetermined number 01 the slide pictures has been shown for energizing said make relay, said film switch and said slide switch being effective in the third position of said threeway switch for controlling said make relay and said break relay, and a counter in line with a current source and said normally open film switch, whereby the number or films played is counted by said counter.

5. An electric circuit comprising a constant duty relay, 2. current source and a switch for controlling said constant duty relay, said switch being controlled by a make relay and a break relay, means for interlocking said make relay and said break relay, said constant duty relay controlling a plurality of switches, a number of said switches being normally open when said constant duty relay is not energized, the remainder of said switches being normally closed when said constant duty relay is not energized, said normally open switches being in line with a current source and a film projector for projecting a motion picture film, an exciter lamp and a loud-speaker, said normally closed switches controlling a slide projector connected with a currentv source, and a switch having three positions, one position for energizing said make relay, a second position for energizing said break relay, and a third position for selectively energizing said make relay and said break relay including means for controlling the energizing of said make relay and 01' said break relay within predetermined periods, and a normally closed film break switch in line with said constant duty relay, said film break switch mod to be opened upon breakage of acted said iilm projector, whereby 'iuty relay cannot be energized and ector operates continuously.

1g having a screen, a mechanism in including a film projector for pretion picture film onto said screen, an s in said housing including a slide proprojeeting slide pictures onto said d an electric circuit in said housing constant duty relay, a current source for controlling said constant duty la :itci'o. being controlled by a make relay and so break relay having means for interlocking said two relays, said constant duty relay controlling a plurality of switches, a number of said switches being normally open when said constant duty relay is not energized, the remainder of said switches being normally closed when said conduty relay is not energized, said normally open switches being in line with a current source and said film projector, said normally closed switches being in circuit with said slide projector and with a current source, a switch having three positions, one position for energizing said make relay, a second position for energizing said break relay, and a third position for selectively energizing said make relay and said'break relay, a film switch and a slide switch in line with said three-way switch in its third position, said film switch being arranged to be closed when a predetermined portion of the film has been played for energizing said break relay, said slide switch being arranged to be closed when a predetermined number'of the slide pictures has been shown for energizing said make relay, said film switch and said slide switch being efiectlve in the third posttion of said three way switch for controlling said make relay and said break relay.

' pictures onto aeit'gsio 7. A housing having a screen, a mechanism in said housing including a rllrn projector for projecting motion picture film onto said screen, an excite'r lamp and a loudspeaker forming part of said mechanism, an appuatus in said housing including a slide projector for projecting slide said screen, and an electric circuit in said housing comprising a constant duty relay, a current source and a switch for controlling said constant duty relay, said switch being controlled by a make relay and a break relay, means for interlocking said make relay and said break relay, said constant duty relay controlling a plurality of switches, a number of said switches being normally open when'said constant duty relay is not energized, the remainder of said switches being normally closed when said constant duty relay is not energized, said normally open switches being in line with a current source and said film projector, said exciter lamp and said loudspeaker, said normally closed switches being in circuit with said slide projector and with a current source, and a switch having three positions, one position for energizing said make relay, 9. second position for energizing said break relay, and a third position for selectively energizing said make relay and said break relay including a device for controlling the energizing of said make relay and of said break relay within predetermined periods in dependence upon the operation of said film projector and of said slide projector, and a 1 normally closed film break switch being arranged to be opened upon breakage of the film projected by said film projector, whereby said constant duty relay cannot be energized and said slide projector operates continuously.

' YERMIE STERN.

M an 

